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SLIDE 33.

ELECTROMAGNETIC WAVES
IN ELECTRON GAS IN A CONDUCTOR

 

  • VECTOR WAVES

  • CONTAIN E, B FIELDS

  • GENERATED BY SPIN COUPLING OF ELECTRONS
    WITH SCALAR WAVE "SPIN-HOLES"

  • WAVES OF FORCE

  • HERTZIAN WAVES

  • TRANSVERSE WAVES

  • WAVES OF ELECTRON PRECESSION

              Here we pause to summarize the characteristics of electromagnetic waves in the electron gas of a conductor. 
            First, these are vector EM waves in the accepted sense. 
            They contain E and B fields. 
            They are generated by spin coupling of electrons with spin-holes in a scalar wave delta-phi river.  The electrons move themselves under that condition, producing work and forces. 
            They are waves of force or force field variations. 
            They are Hertzian waves. 
            They are transverse oscillatory, not longitudinal. 
            They are matter waves. 
            They are waves of electron precession. 

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